CN117642116A - Medical equipment working mode setting method and related equipment - Google Patents

Abstract

The monitoring device determines the mode switching conditions and the working mode parameters corresponding to each bedside medical device in each working mode, wherein the mode switching conditions and/or the working mode parameters corresponding to each bedside medical device are the same or different, at least one target bedside medical device corresponding to the target mode switching conditions is triggered based on the determined target mode switching conditions, and the working mode parameters corresponding to the target mode switching conditions are executed locally, so that the local working mode of the target bedside medical device is switched to the target working mode. The automatic switching of the working modes can be realized, and under the condition that the number of the bedside medical devices is large, the plurality of bedside medical devices are switched in batches, so that the mode setting efficiency is high. In addition, the method for setting the medical equipment mode, the monitoring equipment, the medical equipment and the central station equipment are applied to the central station equipment.

Description

Medical equipment working mode setting method and related equipment Technical Field

The application relates to the technical field of medical equipment, in particular to a medical equipment working mode setting method and related equipment.

Background

In the medical field, it may be necessary to set medical devices to different modes of operation according to different requirements of clinical treatment scenarios in order to provide better medical services for medical subjects. For example, in order to adapt to two different medical environments of day and night, mode parameters such as display brightness, prompt sound, alarm sound and the like of the monitor need to be set respectively.

The main mode of setting the working mode at present is that the medical staff manually adjusts each parameter of each equipment according to the monitoring requirement. Typically, there are many medical devices in the medical facility, which makes manual work more and setup less efficient.

Disclosure of Invention

In view of the foregoing, the present application provides a method for setting an operation mode of a medical device and a related device, so as to efficiently set the operation mode of the medical device.

In order to achieve the above object, the present application provides the following technical solutions:

in a first aspect, embodiments of the present application provide a method for setting an operation mode of a medical device, where the method is applied to a monitoring device, where the monitoring device is communicatively connected to a plurality of bedside medical devices, and the bedside medical devices are provided with at least two operation modes; the method comprises the following steps:

Determining a mode switching condition and a working mode parameter corresponding to each bedside medical device in each working mode, wherein the mode switching condition and/or the working mode parameter corresponding to each bedside medical device are the same or different;

triggering at least one target bedside medical device corresponding to the target mode switching condition based on the determined target mode switching condition, and locally executing the working mode parameter corresponding to the target mode switching condition, so as to switch the local working mode of the target bedside medical device to the target working mode;

wherein, the working mode parameters comprise at least one of the following: working volume, interface brightness, alarm threshold, monitoring mode and treatment mode.

In a second aspect, an embodiment of the present application provides a method for setting an operation mode of a medical device, where the method is applied to a central station device, and the central station device is communicatively connected to at least one medical device, and the method includes:

determining the mode switching conditions corresponding to each medical equipment group in each working mode, wherein the mode switching conditions corresponding to each medical equipment group can be the same or different;

Based on the determined target mode switching conditions, triggering each target medical device in at least one target medical device group corresponding to the target mode switching conditions, and locally executing the working mode parameters corresponding to the target mode switching conditions, so as to switch the local working mode of the target bedside medical device to the target working mode;

wherein, the working mode parameters comprise at least one of the following: working volume, interface brightness, alarm threshold, monitoring mode and treatment mode.

In a third aspect, an embodiment of the present application provides a method for setting a working mode of a medical device, where the method is applied to any medical device in a medical device cluster, each medical device in the medical device cluster is set with at least two working modes, the working modes have corresponding preset working times, a mode switching condition corresponding to the working modes is a time condition, and the time condition corresponds to the preset working times; the method comprises the following steps:

when the current working time of the target medical equipment meets a target mode switching condition, determining a target working mode corresponding to the target mode switching condition; the target medical equipment is any medical equipment in the medical equipment cluster, and the target mode switching condition is any mode switching condition corresponding to the medical equipment;

Controlling the target medical equipment to execute the target working mode according to the working mode parameters corresponding to the target mode switching conditions within the preset working time corresponding to the target mode switching conditions;

sending a notification instruction to other medical equipment in the medical equipment cluster, so that the other medical equipment executes the target working mode according to working mode parameters of the other medical equipment corresponding to the target working mode within a preset working time corresponding to the target mode switching condition;

wherein, the working mode parameters comprise at least one of the following: working volume, interface brightness, alarm threshold, monitoring mode and treatment mode.

In a fourth aspect, an embodiment of the present application provides a method for setting a working mode of a medical device, where the method is applied to a first medical device, where the first medical device is a central station device or a monitoring device, and the first medical device is connected to at least one second medical device in a communication manner; the method comprises the following steps:

obtaining mode information corresponding to at least one working mode of the second medical equipment, wherein the mode information comprises working mode parameters and/or mode switching conditions;

The mode information of the working mode is sent to the second medical equipment, so that the second medical equipment can set a local working mode based on the mode information corresponding to the at least one working mode;

wherein, the working mode parameters comprise at least one of the following: working volume, interface brightness, alarm threshold, monitoring mode and treatment mode.

In a fifth aspect, an embodiment of the present application provides a method for setting a working mode of a medical device, where the method is applied to a first medical device, the first medical device is connected with at least one second medical device in a communication manner, the second medical device stores at least one working mode, and working modes corresponding to different second medical devices are associated with the same working scene; the method comprises the following steps:

receiving a mode switching instruction, wherein the mode switching instruction is used for indicating one or more target working scenes to be set by the target second medical equipment;

and sending the mode switching instruction to the target second medical equipment so that the target second medical equipment switches the current working mode into a target working mode corresponding to the target working scene.

In a sixth aspect, embodiments of the present application provide a monitoring device, including:

The communication interface is used for being in communication connection with a plurality of bedside medical equipment, and the bedside medical equipment is provided with at least two working modes;

a processor configured to determine a mode switching condition and an operating mode parameter corresponding to each of the bedside medical devices in each of the operating modes, wherein the mode switching condition and/or the operating mode parameter corresponding to each of the bedside medical devices are the same or different; triggering at least one target bedside medical device corresponding to the target mode switching condition based on the determined target mode switching condition, and locally executing the working mode parameter corresponding to the target mode switching condition, so as to switch the local working mode of the target bedside medical device to the target working mode;

wherein, the working mode parameters comprise at least one of the following: working volume, interface brightness, alarm threshold, monitoring mode and treatment mode.

In a seventh aspect, embodiments of the present application provide a central station apparatus, including:

a communication interface for communication connection with at least one medical device;

a processor configured to determine a mode switching condition corresponding to each of the medical device groups in each of the operating modes, wherein the mode switching condition corresponding to each of the medical device groups may be the same or different; based on the determined target mode switching conditions, triggering each target medical device in at least one target medical device group corresponding to the target mode switching conditions, and executing the working mode parameters corresponding to the target mode switching conditions locally, so as to switch the local working mode of the target bedside medical device to the target working mode;

Wherein, the working mode parameters comprise at least one of the following: working volume, interface brightness, alarm threshold, monitoring mode and treatment mode.

In an eighth aspect, an embodiment of the present application provides a medical device, where the medical device is any medical device in a medical device cluster, each medical device in the medical device cluster is provided with at least two working modes, the working modes have corresponding preset working times, a mode switching condition corresponding to the working modes is a time condition, and the time condition corresponds to the preset working times; the medical device includes:

a processor configured to determine a target operating mode corresponding to a target mode switching condition when a current operating time of the target medical device satisfies the target mode switching condition; the target medical equipment is any medical equipment in the medical equipment cluster, and the target mode switching condition is any mode switching condition corresponding to the medical equipment; and controlling the target medical equipment to execute the target working mode according to the working mode parameters corresponding to the target mode switching conditions within the preset working time corresponding to the target mode switching conditions;

The communication interface is used for sending a notification instruction to other medical equipment in the medical equipment cluster so that the other medical equipment executes the target working mode according to the working mode parameters of the other medical equipment, which correspond to the target working mode, within the preset working time corresponding to the target mode switching condition;

wherein, the working mode parameters comprise at least one of the following: working volume, interface brightness, alarm threshold, monitoring mode and treatment mode.

In a ninth aspect, embodiments of the present application provide a medical device, which is a central station device or a monitoring device, the medical device being communicatively connected to at least one other medical device; the medical device includes:

a processor configured to obtain mode information corresponding to at least one working mode of the other medical device, wherein the mode information includes a working mode parameter and/or a mode switching condition;

the communication interface is used for sending the mode information of the working modes to the other medical equipment so that the other medical equipment can set the local working mode based on the mode information corresponding to the at least one working mode;

Wherein, the working mode parameters comprise at least one of the following: working volume, interface brightness, alarm threshold, monitoring mode and treatment mode.

In a tenth aspect, embodiments of the present application provide a medical device, where the medical device is communicatively connected to at least one other medical device, where the other medical device stores at least one working mode, and where the working modes corresponding to the other medical device are associated with the same working scenario; the medical device includes:

the human-computer interaction module is used for receiving a mode switching instruction, wherein the mode switching instruction is used for indicating one or more target working scenes to be set by other target medical equipment;

and the processor is configured to control the communication interface to send the mode switching instruction to the target other medical equipment so as to enable the target other medical equipment to switch the current working mode to a target working mode corresponding to the target working scene.

According to the technical scheme, the automatic switching of the working modes can be realized, and under the condition that the number of the medical devices is large, the plurality of medical devices can be switched in batches, so that the mode setting efficiency is high.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic diagram of a specific implementation of a method for setting a working mode of a medical device according to an embodiment of the present application;

fig. 2 is a schematic diagram of a specific implementation of a method for setting an operation mode of another medical device according to an embodiment of the present application;

fig. 3 is a schematic diagram of a specific implementation of a method for setting an operation mode of another medical device according to an embodiment of the present application;

FIG. 4A is a block diagram of a central administration device and a medical device according to an embodiment of the present application;

fig. 4B to 4C are schematic diagrams illustrating specific implementation of two operation mode setting methods according to the embodiments of the present application;

fig. 5 is a schematic structural diagram of a monitoring device according to an embodiment of the present application.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Medical devices used in clinical settings may require different modes of operation to be set according to different clinical settings to allow medical personnel to more reasonably and properly use the medical device to service a patient. For example, in an inpatient ward, the daytime environment is noisy, and in order to avoid important alarm events which are ignored due to the fact that the display brightness of the interface is dark due to the fact that the reminding sound is too low in the relatively noisy and bright environment, medical staff needs to properly raise parameters such as the sound and the brightness of medical equipment. However, the night environment is quite, so that in order to enable a patient to have a good rest environment, medical staff often need to adjust parameters such as sound and brightness of medical equipment so as to prevent the screen of the medical equipment from being too bright or the prompt sound from being too loud, and normal rest of the patient can be affected.

The current medical equipment needs medical staff to set up manually, greatly increased medical staff's daily work load. Moreover, there may be a case where setting switching is not performed in time according to the environmental condition, resulting in a medical accident, for example, the alarm sound is not adjusted to a proper volume in time during the daytime, resulting in a failure of the nurse to hear the alarm sound in time, thereby delaying the processing time.

In order to at least solve the above-mentioned technical problem, the embodiment of the present application provides a method for setting a working mode of a medical device, which can implement automatic switching of the working mode. Referring to fig. 1, the operation mode setting method embodiment may be applied to the medical device system shown in fig. 1, which includes a first medical device and at least one second medical device communicatively connected to the first medical device. It should be noted that the "first" and "second" merely distinguish medical devices, and do not constitute any limitation in other respects.

In a specific embodiment, the medical device operation mode setting method is specifically applied to a first medical device, and the first medical device may be a medical device with a monitoring function such as a monitor (for convenience of description, the device is referred to as a monitoring device), or may be a medical device with a treatment function. The second medical device may be a bedside medical device, such as a ventilator, an infusion pump, or may be other types of medical devices as well. A communication connection is established between the second medical device and the first medical device, which may be a communication connection established for realizing the requirements of the setting of the operation mode, or may be a communication connection established according to the requirements of daily medical treatment or management.

In a specific embodiment, the monitoring device is communicatively coupled to a plurality of bedside medical devices, the bedside medical devices being configured with at least two modes of operation. It should be noted that the operation mode may include a mode in which a preset workflow is executed, or may be regarded as an operation mode when no operation is performed. Specifically, a medical device operation mode setting method applied to a monitoring device may include:

step A1: and determining the mode switching conditions and the working mode parameters corresponding to the bedside medical equipment in each working mode, wherein the mode switching conditions and/or the working mode parameters corresponding to the bedside medical equipment are the same or different. Wherein, the working mode parameters comprise at least one of the following: working volume, interface brightness, alarm threshold, monitoring mode and treatment mode.

The bedside medical device can realize the switching of a plurality of working modes, the monitoring device controls the bedside medical device to switch to a certain working mode, and in order to realize the control purpose, the monitoring device needs to know in advance which of the working modes the bedside medical device can set, and know the switching condition corresponding to each working mode and the mode parameter corresponding to the working mode, wherein the switching condition can be specifically referred to as a mode switching condition, and the mode parameter can be specifically referred to as a working mode parameter. Of course, the number of modes of operation in which the bedside medical device can be set may be one or more.

For the same bedside medical equipment, different working modes are suitable for different working scenes, the working scenes can be determined by the characteristics of the working environment or the working time period and other conditions, for example, a daytime mode is suitable for a daytime monitoring scene, and an evening mode is suitable for an evening monitoring scene. If a plurality of bedside medical devices are provided, the mode parameters of the working modes can be the same or different among different bedside medical devices, and the mode switching conditions corresponding to different working modes can be the same or different.

The monitoring device determines the above information (the settable working mode of the bedside medical device, the mode switching condition corresponding to the working mode and the working mode parameter corresponding to the working mode), one way is that the monitoring device locally stores the information in advance and then obtains the information from the local place, and the other way is that the information is read from each bedside medical device.

Step A2: and triggering at least one target bedside medical device corresponding to the target mode switching condition based on the determined target mode switching condition, and locally executing the working mode parameter corresponding to the target mode switching condition, so as to switch the local working mode of the target bedside medical device to the target working mode.

The target mode switching condition is any one of mode switching conditions corresponding to the bedside medical equipment, and when the condition content of a certain mode switching condition is met, the mode switching condition is the target mode switching condition. For example, if the mode switching condition is a time condition, when the current time point reaches a time point of a certain mode switching condition, the certain mode switching condition is a target mode switching condition. One specific implementation is to determine whether a mode switching condition achieved by a condition exists based on the current working time of the monitoring device, and if so, determine the mode switching condition achieved by the condition as a target mode switching condition.

In a specific embodiment, the mode of determining the target mode switching condition is that the monitoring device may monitor the working states of the bedside medical devices, and monitor whether the working states of the bedside medical devices meet the mode switching condition of any working mode corresponding to the bedside medical devices. And if the working state of any one of the bedside medical equipment meets the mode switching condition of any one of the working modes corresponding to the bedside medical equipment, determining the switching condition of any one of the working modes as a target mode switching condition.

It should be noted that the mode switching condition may be various, such as that the mode switching condition is related to each time period of the day, that the device brightness sound is related, and so on. The content of the working state corresponds to the content of the mode switching condition, and the working state of the corresponding content is monitored when the mode switching condition of which type needs to be met. For example, the mode switch condition is associated with each time of day, and the monitored operating state is the device time of the bedside medical device; as another example, the mode switch condition is associated with a brightness sound, and the monitored operating condition is ambient brightness and sound of the bedside medical device operation.

In one embodiment, the monitoring device may obtain an operating parameter of the bedside medical device, such as a current device time, a current mode parameter, and the like, from the bedside medical device, and determine whether the operating state of the bedside medical device meets the mode switching condition according to the obtained operating parameter. It will be appreciated that if a determination of a certain type of operating condition is desired, operating parameters indicative of that type of operating condition may be obtained from the bedside medical device.

In another specific implementation, the monitoring device monitors its own working state and determines its own working state as the working state of the bedside medical device. Illustratively, different modes of operation correspond to different periods of time, and the periods of time for the respective bedside medical devices corresponding to the modes of operation are the same. The application scene is that each bedside medical device in communication connection with the monitoring device can enter the working mode corresponding to the same time period at the same time, and exit the working mode corresponding to the same time period at the same time. In this case, the monitoring device monitors whether the operation time point of the monitoring device itself reaches the period of time of any operation mode; and if the monitoring result is yes, the working state of any one of the bedside medical equipment is indicated to meet the mode switching condition of any one of the working modes corresponding to the any one of the bedside medical equipment.

In this implementation, the monitoring device uses its own operating time point (device time) as the operating time point (device time) of the bedside medical device in communication connection with the monitoring device, and monitoring the operating time point of the bedside medical device can be achieved by monitoring its own operating time point. In order to achieve a better implementation effect, clock calibration can be performed on the monitoring device and the bedside medical devices in advance so as to synchronize the device time of each medical device.

After determining the target mode switching condition, the bedside medical device corresponding to the target mode switching condition (the bedside medical device may be referred to as a target bedside medical device) is triggered to perform mode switching, for example, a mode switching instruction is generated, and the mode switching instruction is sent to the bedside medical device to perform the triggering switching. It should be noted that the target bedside medical device may be any one or more of a plurality of bedside medical devices communicatively connected to the monitoring device, and the specific number is determined by the actual monitoring situation. Specifically, the monitoring device determines a bedside medical device meeting the mode switching condition, and sends a mode switching instruction to the bedside medical device after generating the corresponding mode switching instruction.

In a specific embodiment, the specific implementation process of triggering the switching is that the mode switching instruction may carry related information of the working mode to be set (i.e., the working mode corresponding to the target mode switching condition, which may be referred to as the target working mode), such as a working mode identifier, and after receiving the mode switching instruction, the bedside medical device sets its working mode to be the working mode according to the instruction of the mode switching instruction. It can be understood that the operation mode is determined by the mode parameter, and loading the mode parameter after obtaining the mode parameter of the operation mode is equivalent to completing the setting of the operation mode.

Referring to fig. 1, in a specific implementation process of triggering switching in a specific embodiment, the monitoring device sends a mode switching instruction corresponding to mode switching to each bedside medical device corresponding to the target mode switching condition based on the determined target mode switching condition, so as to instruct the bedside medical device corresponding to the target mode switching condition to switch the local working mode to the target working mode corresponding to the target mode switching condition based on the corresponding working mode parameter. The corresponding working mode parameters specifically refer to working mode parameters corresponding to the target mode switching conditions. The working mode parameters may be pre-stored in the target bedside medical device, or may be sent to the bedside medical device by the monitoring device through a mode switching command, which are described below for the two cases respectively.

In the first case, after the monitoring device generates the mode switching instruction, the monitoring device sends the mode switching instruction to the bedside medical device corresponding to the target mode switching condition, so as to instruct the bedside medical device corresponding to the target mode switching condition to switch the local working mode to the target working mode corresponding to the target mode switching condition based on the working mode parameter stored locally in advance. For example, the bedside medical device in fig. 1 may have a local operating mode parameter stored in advance, and the specific implementation procedure of step 1.4 is that the bedside medical device determines, from among the locally stored operating mode parameters, a target operating mode parameter corresponding to the target mode switching condition, and executes the target operating mode parameter so as to switch the local operating mode to the target operating mode.

The bedside medical equipment stores working mode parameters in advance, and the working mode parameters can be stored in the bedside medical equipment before a mode switching instruction is received. One implementation mode of pre-storage is that an operator can pre-define mode parameters of working modes of the bedside medical equipment on the bedside medical equipment; in another implementation, the monitoring device determines mode information of at least one operating mode of the bedside medical device, the mode information including operating mode parameters and/or mode switching conditions; the mode information of the at least one mode of operation is transmitted to the bedside medical device such that the bedside medical device maintains the mode information of the at least one mode of operation. In contrast to the above implementation, the monitoring device stores mode information of the operating mode that is not defined by the operator on the bedside medical device, respectively, but receives and stores the mode information sent by the monitoring device. In this case, the mode information sent by the monitoring device may be defined by the operator on the monitoring device, that is, the monitoring device determines the user-defined mode information as the mode information of the operation mode of the bedside medical device in response to the user-defined mode information.

And secondly, the mode switching instruction generated by the monitoring equipment carries working mode parameters corresponding to the target mode switching conditions, and the mode switching instruction corresponding to the mode switching is sent to the target bedside medical equipment corresponding to the target mode switching conditions so as to instruct the target bedside medical equipment corresponding to the target mode switching conditions, and the local working mode is switched to the target working mode corresponding to the target mode switching conditions based on the working mode parameters carried in the mode switching instruction. In this case, the operating mode parameter is sent to the target bedside medical device along with the mode switch instruction. For example, the mode switching instruction sent in step 1.3 in fig. 1 may carry an operation mode parameter, and the specific implementation procedure of step 1.4 is that the bedside medical device executes the operation mode parameter in the mode switching instruction so as to switch the local operation mode to the target operation mode.

After receiving the mode switching instruction, the bedside medical equipment determines the working mode parameters corresponding to the target mode switching conditions, and executes the working mode parameters corresponding to the target mode switching conditions locally, so that the local working mode of the bedside medical equipment is switched to the target working mode.

According to the medical equipment working mode setting method, the monitoring equipment determines the mode switching conditions and the working mode parameters corresponding to the bedside medical equipment in communication connection with the monitoring equipment in each working mode, triggers at least one target bedside medical equipment corresponding to the target mode switching conditions after determining the target mode switching conditions, locally executes the working mode parameters corresponding to the target mode switching conditions, and accordingly switches the local working mode of the target bedside medical equipment to the target working mode. According to the embodiment, the automatic switching of the working modes can be realized, and under the condition that the number of the bedside medical devices is large, the plurality of the bedside medical devices can be switched in batches, so that the mode switching efficiency is high.

On the basis of the above embodiment, the monitoring device is also provided with at least two working modes, and the mode switching conditions and/or the working mode parameters corresponding to each working mode are the same or different. If the monitoring device itself meets the target mode switching condition, for example, if the mode switching condition is a time condition, the operating time point of the monitoring device reaches the time period of any operating mode. In this case, the monitoring device may further determine, in its own operation mode, a target operation mode corresponding to the any one of the operation modes, and set its own operation mode as the target operation mode. Or the local working mode of the monitoring device can be switched to the target working mode corresponding to the target mode switching condition based on the target working mode parameter corresponding to the determined target mode switching condition, so that the monitoring device and the bedside medical device synchronously switch the working modes.

In order to facilitate understanding of the technical solution provided in the foregoing embodiment, a specific application scenario example is provided for explanation in connection with the medical equipment system provided in fig. 1.

The medical staff self-defines the mode information of the working mode of the bedside medical equipment, and particularly comprises mode parameters and mode switching conditions.

Illustratively, healthcare workers customize two modes of operation on bedside medical devices: daytime and nighttime modes. In order to adapt to different monitoring scenes, mode parameters such as volume, brightness, alarm threshold and the like of the two working modes are different and need to be set according to the characteristics of the respective monitoring scenes. For example, the basic sign values of some patients at night may be due to low sleep, and the alarm threshold may be adjusted appropriately in order to avoid an insignificant alarm caused by frequent overruns. It should be noted that the mode parameters may also include settings for specific functions, such as a night mode that may suspend non-invasive blood pressure measurement, a day mode and a night mode that employ different treatment modes, including but not limited to a ventilation mode of the ventilator, a medication mode of the infusion pump, etc.

In addition, the medical staff can also define the mode switching conditions of the daytime mode and the night mode, for example, define the time period corresponding to the daytime mode to be 07:00-19:00 and the time period corresponding to the night mode to be 19:00-07:00 (the next day); or, the setting may be performed according to the shift time of the nurse, for example, if the nurse in the hospital adopts three shift time, three working modes including a shift mode, a shift mode and a night shift mode may be set, and the corresponding time periods are 8:00-17:00, 17:00-22:00, 22:00-8:00 (the second day).

Illustratively, the custom working mode may further include a privacy mode, the working scene associated with the privacy mode being a visit scene. For example, some hospital departments may have visit times at 3-4 pm each day, and a privacy mode may be set to protect patient privacy, where the display interface includes relatively little or rough content. In addition, the mode switching condition of the privacy mode can be customized to be 14:55-16:10, so that when the device time reaches 14:55, the privacy mode is entered, and the privacy mode is exited from 16:10.

The bedside medical device locally stores the healthcare worker's custom mode information.

After clock synchronization is carried out between the monitoring device and the bedside medical devices, the monitoring device monitors the device time of the monitoring device, and if the device time enters a certain time period, a mode switching instruction corresponding to the time period is generated and sent to each bedside medical device. After receiving the mode switching instruction, the bedside medical equipment loads the mode parameters corresponding to the mode switching instruction so as to set the working mode of the bedside medical equipment to be the corresponding working mode. For example, if the monitoring device monitors that the device time is 07:00, a mode switching instruction corresponding to the daytime mode is generated and sent to the bedside medical device, and the bedside medical device loads mode parameters of the daytime mode, such as volume, brightness, alarm threshold, treatment mode, special function setting conditions and the like, so that the working mode of the bedside medical device is set to be the daytime mode. The setting mode of the night mode is the same, and the monitoring equipment controls each bedside medical equipment to enter the night mode according to the equipment time.

In the above embodiment, the first medical device automatically monitors the operation state of the bedside medical device, and performs mode switching on the first medical device according to the operation state of the second medical device. In addition to this implementation, the operating mode of the respective second medical device may also be switched manually by an operator by one key.

The operation mode setting method is also described with reference to the medical device system of fig. 1. The medical device system includes a first medical device and at least one second medical device communicatively coupled to the first medical device. As exemplarily shown in fig. 2, the first medical device may be a monitor, and the two second medical devices communicatively connected to the first medical device are bedside medical devices such as a ventilator and an infusion pump, respectively.

The second medical device has at least one operation mode stored in advance, and it is understood that if the second medical device has a plurality of second medical devices, the mode parameters of the operation modes between the respective second medical devices may not be identical. For example, the ventilator may be set to two modes of operation, normal and quiet, but the infusion pump may be set to two modes of operation, daytime and nighttime; the quiet mode of the ventilator includes a mode parameter that is interface display content, but the night mode of the infusion pump does not have this mode parameter; the alarm threshold for the ventilator is not the same as the alarm threshold for the infusion pump, etc. Although the working modes are different, certain working modes of the medical equipment have corresponding relations, and the corresponding relations are reflected in that the working modes are associated with the same working scene. For example, the normal mode of the ventilator and the daytime mode of the infusion pump are both associated with daytime scenes, and the quiet mode of the ventilator and the nighttime mode of the infusion pump are both associated with nighttime scenes.

Referring to fig. 2, this embodiment of the operation mode setting method is applied to a first medical device, and specifically includes steps 2.1-2.2.

2.1: and receiving a mode switching instruction, wherein the mode switching instruction is used for indicating a target working scene to be set.

The first medical device may receive a mode switching instruction from an operator, and may input the mode switching instruction to the first medical device when the operator considers that each of the second medical devices needs to be set to an operation mode in a certain operation scene. There are various ways of inputting: the first medical device can provide virtual buttons, such as a setting control displayed by a touch screen, or the first medical device is provided with an entity button, and an operator touches the virtual buttons or the entity button to input a mode switching instruction; the first medical equipment is provided with a voice recognition module, and an operator can input a mode switching instruction through voice; the first medical equipment is provided with an image recognition module, and an operator can input a mode switching instruction through actions or gestures; the first medical device is provided with a communication module, and an operator can send a mode switching instruction to the first medical device through the terminal device so as to realize remote input.

The mode switch instruction is used to indicate a target work scenario, such as a daytime work scenario, that the operator desires to set. For example, the touch screen displays a "daytime scene" control that the operator touches to input a mode switch instruction indicating that the target work scene is a daytime scene.

2.2: and sending a mode switching instruction to at least one second medical device so that the second medical device can set the working mode to be the working mode corresponding to the target working scene.

After receiving the mode switching instruction, the first medical device transmits the mode switching instruction to a second medical device in communication connection with the first medical device. If the operator does not select the target second medical device desired to be transmitted, a mode switching instruction may be transmitted to the default second medical device, such as all the second medical devices connected by communication. Of course, in the case where the operator designates the target second medical device, it may be transmitted only to the designated target second medical device.

As shown in step 2.3 of fig. 2, after receiving the mode switching instruction, the second medical device may determine, according to the target working scenario indicated by the mode switching instruction, a working mode associated with the target scenario, thereby setting the working mode of the second medical device to the determined working mode. Still further to the above example, assuming that the target operating scene indicated by the mode switching instruction is a daytime scene, the ventilator is set to the normal mode after receiving the mode switching instruction, and the infusion pump is set to the daytime mode after receiving the mode switching instruction.

According to the technical scheme, in the embodiment of the working mode setting method, the first medical equipment can provide a mode setting function such as one-key switching, an operator can set batch modes of the second medical equipment through the function, and the operation mode is flexible and convenient.

Further, the first medical device may also set the operation mode synchronously on the basis of the mode switching of the second medical device. Specifically, in response to the mode switching instruction, the first medical device sets the operation mode of the first medical device to an operation mode corresponding to the target operation scene. The first medical equipment also stores at least one settable working mode, and after receiving the mode switching instruction, the first medical equipment is similar to the switching of the second medical equipment, and the corresponding working mode is determined from the self-stored working modes to be set.

As with the previous embodiments, in one implementation, the operator may customize the mode information of the operating mode of the second medical device on the first medical device. Specifically, responding to the mode information self-defining operation of the user, and determining the mode information self-defined by the user as the mode information of the working mode of the second medical equipment; wherein the mode information comprises mode parameters and/or mode switching conditions, the mode parameters comprising at least one of: working volume, interface brightness, alarm threshold, monitoring mode and treatment mode, and mode switching conditions comprise a time period corresponding to the working mode; and transmitting the mode information of the at least one working mode to the second medical device so that the second medical device can store the mode information of the at least one working mode. The specific description is referred to above and is not repeated here.

In addition to the monitoring of the second medical device by the first medical device, the second medical device may also monitor itself and switch modes of operation. Turning to fig. 3, a further embodiment flow of a method of operating mode setting is shown, the method being applied to a first medical device. As shown in fig. 3, this embodiment of the method specifically includes steps 3.1-3.4.

3.1: the first medical device determines mode information for at least one operating mode of the second medical device, the mode information comprising mode parameters and/or mode switching conditions.

The first medical device may obtain the mode information of the operation mode of the second medical device in advance, which may be sent by other devices (that is, receive the mode information of at least one operation mode sent by other devices communicatively connected to the first medical device, determine the mode information as the mode information of the second medical device), or the operator may customize the mode information of the second medical device on the first medical device (that is, respond to the mode information customizing operation of the user, determine the mode information customized by the user as the mode information of the operation mode of the second medical device).

Illustratively, the mode parameter includes at least one of: working volume, interface brightness, alarm threshold, monitoring mode and treatment mode, and the mode switching condition comprises a time period corresponding to the working mode.

3.2: and the first medical equipment sends the mode information of the working mode to the second medical equipment corresponding to the working mode.

After the first medical device obtains the mode information of a certain second medical device, the first medical device sends the mode information to the second medical device. If the mode information of the plurality of second medical devices is obtained, the first medical device may transmit to the second medical devices in batches or may transmit to the second medical devices respectively.

3.3: the second medical device stores mode information for at least one mode of operation.

After the second medical device receives the mode information of at least one working mode sent by the first medical device, the second medical device stores the mode information.

3.4: and if the working state of the second medical equipment meets the mode switching condition, the second medical equipment determines a target mode parameter and sets a working mode according to the target mode parameter.

The second medical device monitors whether the working state of the second medical device meets the mode switching condition of a certain working mode, if so, the second medical device determines the mode parameter corresponding to the working mode in the mode information of at least one working mode stored by the second medical device, and for convenience of description, the determined mode parameter can be called as a target mode parameter. The second medical device loads the target mode parameter to set its own operation mode as the operation mode defined by the target mode parameter. The second medical device performs the mode of operation.

It should be noted that, the monitoring of the working state of the second medical device may refer to the description of the above embodiment, which is not repeated herein. In one implementation, the second medical device may monitor whether the operating time point of the second medical device has reached a time period of either operating mode; and the monitoring result is used for indicating that the working state of the second medical equipment meets any mode switching condition.

According to the technical scheme, the first medical equipment sends the mode information of the working mode to the second medical equipment, and each second medical equipment monitors the working state of the second medical equipment according to the mode information and sets the working mode of the second medical equipment according to the working state.

It should be noted that in each of the above embodiments, the first medical device may be cooperatively set with each of the second medical devices to a certain working mode, and of course, the first medical device may control itself to switch the working modes according to the monitoring result, without considering the control of switching the working modes of the second medical devices.

In one implementation, the first medical device in the above-described embodiments may be specifically a central administration device, which may be referred to as a central station or central station device. In practical application, the central supervision device can be in communication connection with a plurality of types of medical devices in each ward of each department, so that the working mode setting of a large number of medical devices is realized.

The central station device can also switch the working modes of the medical devices in batches by means of the medical device group. In this regard, the embodiment of the application provides a method for setting a medical device working mode applied to a central station device, where the method includes:

determining the mode switching conditions corresponding to each medical equipment group in each working mode, wherein the mode switching conditions corresponding to each medical equipment group can be the same or different; based on the determined target mode switching conditions, triggering each target medical device in at least one target medical device group corresponding to the target mode switching conditions, and locally executing the working mode parameters corresponding to the target mode switching conditions, thereby switching the local working mode of the target bedside medical device to the target working mode; wherein, the working mode parameters comprise at least one of the following: working volume, interface brightness, alarm threshold, monitoring mode and treatment mode.

In a specific implementation manner, each operation mode corresponds to an expected operation time, each mode switching condition includes at least one time condition, the time condition corresponds to the operation time, and when a determined target mode switching condition is achieved, the medical device switches to the corresponding target operation mode, so that the target operation mode is applied to the medical device in the expected operation time.

It should be noted that one or more medical devices may be divided into the same medical device group, each medical device in the same medical device group uniformly receives a mode switching instruction of the central station device, and the mode switching control of the central station device on the medical device group may refer to the control process of the monitoring device on the bedside medical device.

In a specific implementation manner, the medical equipment group can further comprise a monitoring device, and the central station device can forward the mode switching control process of the medical equipment in the medical equipment group to the monitoring device to be completed by the monitoring device. Specifically, when the medical devices of the target medical device group comprise monitoring devices, the central station device sends a target mode switching condition to the monitoring devices, the target mode switching condition is used for indicating the monitoring devices to send a mode switching instruction to each medical device in the target medical device group, the mode switching instruction is used for indicating each medical device in the target medical device group, and working mode parameters corresponding to the target mode switching condition are locally executed, so that the local working mode of the target bedside medical device is switched to a target working mode; and monitoring, by the monitoring device, a current mode of operation of each medical device in the target medical device group.

The control modes of the central station device and the medical device are described below by way of specific embodiments.

As shown in fig. 4A and 4B, the central station device is communicatively connected to at least one medical device, and the method for setting an operation mode may specifically include steps 4.1-4.4.

4.1: at least one medical device is divided into at least one medical device group. Wherein each medical device group corresponds to at least two modes of operation.

The central station device is communicatively coupled to one or more medical devices, which may be of the same or different types. For example, the central station apparatus may be communicatively coupled to monitors, ventilators, and infusion pumps of multiple wards of multiple departments, such as the example of fig. 4A and 4B, specifically coupled to the monitor of ward 1, the ventilator of ward 1, the monitor of ward 2, the infusion pump of ward 2, and the infusion pump of ward 3.

For convenience of management, the central station device may group the medical devices, the medical devices in the same group have uniformity and identity, the medical devices in the same group may perform the same process, for example, the medical devices in the same group may be set to the same operation mode, the alternative operation modes of the medical devices in the same group are the same, and so on.

After grouping the medical devices, at least one medical device group may be obtained.

A grouping mode is user-defined grouping, namely, a grouping instruction of a user is received, at least one medical device is grouped based on the grouping instruction, and at least one corresponding medical device group is obtained.

Another grouping mode is grouping by type, that is, medical devices with the same device type are determined to be the same medical device group, the device types can be divided according to medical functions of the devices, and the devices realizing the same medical functions can be regarded as the same device type, so that the device type can be specifically also called as the device function type. For example, fig. 4B, the monitors of ward 1 and ward 2 are grouped, the ventilators of ward 1 are grouped, and the infusion pumps of ward 2 and ward 3 are grouped.

Yet another grouping is grouping by object, i.e., based on medical objects, one or more medical devices associated with the same medical object or class of medical objects are determined to be the same medical device group, a medical object referring to an object, i.e., a patient, for which the medical device performs a medical function. Assuming that in the example of fig. 4A, the devices within the same ward are all associated with the same medical subject, the monitor of ward 1 and the ventilator of ward 1 may be grouped together, the monitor of ward 2 and the infusion pump of ward 2 may be grouped together, and the infusion pump of ward 3 may be grouped together.

Yet another grouping is by disease area, i.e. one or more medical devices belonging to a disease area are determined to be the same medical device group based on the disease area in which the medical device is located, the disease area referring to the area in which the medical device is located.

4.2: and determining the working mode of the medical equipment group and a mode switching condition corresponding to the working mode, wherein the working mode is at least one.

4.3: if the working state of any medical equipment group meets the mode switching condition of any working mode corresponding to any medical equipment group, generating a mode switching instruction corresponding to any working mode.

Specifically, the central station device monitors whether the working state of any medical equipment group meets the mode switching condition of any working mode corresponding to any medical equipment group. It should be noted that, not all the medical device groups may simultaneously satisfy the mode switching conditions, and if any one or more medical device groups satisfy a certain mode switching condition, a mode switching instruction of the medical device group may be generated.

4.4: and sending a mode switching instruction to the medical equipment included in any medical equipment group, wherein the mode switching instruction is used for instructing the medical equipment of any medical equipment group to set the working mode to any working mode.

It should be noted that, since the medical devices in the same medical device group are equally located, one medical device group may be regarded as one medical device in the above embodiment, and the descriptions of steps 4.2 to 4.4 in this embodiment may refer to the corresponding descriptions in the above embodiment, which are not repeated herein.

According to the technical scheme, the working mode setting method applied to the central station equipment can be used for managing a group of medical equipment in batches, and the working modes of all the medical equipment in the same medical equipment group are set in batches, so that the management efficiency is more efficient.

In a specific implementation manner, different working modes correspond to different time periods, and the time periods of the working modes corresponding to the medical equipment groups are the same, the central station equipment monitors whether the working time point of the central station equipment reaches the time period of any working mode, and if so, the monitoring result indicates that the working state of any medical equipment group meets the mode switching condition of any working mode corresponding to any medical equipment group.

In particular, for any group of medical devices communicatively connected to the central station device, it may be set to at least one alternative operating mode, between which different operating modes correspond to different time periods, the central station device monitoring whether its operating time point satisfies a time period of a certain operating mode, and if so, indicating that the individual medical devices within the group are set to that operating mode.

For example, for a group consisting of the monitor of the ward 1 and the ventilator of the ward 1, two alternative operation modes, namely, a daytime mode and a nighttime mode, are corresponding, the time periods corresponding to the daytime mode and the nighttime mode are different, the central station monitors what time period the operation time point of the central station enters, and the monitor and the ventilator in the group are uniformly set to the operation mode corresponding to the time period, such as the daytime mode or the nighttime mode.

Further, the central station device may also set the mode parameters of the medical devices in the medical device groups in a unified manner, and specifically, send the mode parameters of the working mode to the medical devices included in any medical device group while or before sending the mode switching instruction to the medical devices included in the medical device group. The medical equipment in any medical equipment group can store the mode parameters of the working modes after receiving the mode switching instruction, and can set the working mode of the medical equipment group to the working mode indicated by the mode switching instruction by using the mode parameters of the working modes after receiving the mode switching instruction.

Further, in one implementation, the operator may set mode parameters of each medical device in the same group on the central monitoring device in a unified manner, specifically, the central station device responds to the mode information customization operation of the user, and determines the mode information customized by the user as the mode information of the working mode of the medical device group. In yet another implementation, the operator may set the mode parameter not directly on the central station device, but on other devices such as a mobile terminal or the like, and then send the mode parameter to the central station device.

The mode information includes a mode parameter and/or a mode switching condition, the mode parameter including at least one of: working volume, interface brightness, alarm threshold, monitoring mode and treatment mode, and the mode switching condition comprises a time period corresponding to the working mode. It should be noted that, in the same working mode of each medical device in the same group, specific mode parameters may be the same or may be different according to the characteristics of each device. For example, monitors and ventilators within the same group, while both correspond to daytime modes, the respective mode parameters, such as screen brightness, alarm thresholds, etc., may be different.

The central station device can uniformly transmit the mode parameters of the same group to each medical device in the group, and the mode is more convenient and efficient for monitoring the medical devices.

Similar to the first medical device shown in fig. 3, the central station device may also send mode information to the group of medical devices to which it is communicatively connected, with the devices within the group of medical devices monitoring themselves and switching modes of operation.

Referring to fig. 4C, an embodiment of the present application provides a method for setting an operation mode of a medical device applied to a central station device, where the method may specifically include steps 5.1-5.5.

5.1: the central station device determines the at least one medical device as at least one medical device group.

As above, the medical device group may be determined by any one of the following: receiving a grouping instruction of a user, and determining medical equipment corresponding to the grouping instruction as the same medical equipment group; determining medical devices with the same device type as the same medical device group; or, medical devices associated with the same type of medical object are determined to be the same medical device group. Of course, the medical device groups may be divided in other ways or criteria according to actual needs.

5.2: the central station device determines mode information for at least one operating mode of the medical device group, the mode information comprising mode parameters and/or mode switching conditions.

There may be one or more modes of operation of the medical devices within the same medical device group. If there are multiple modes, in one implementation, different operation modes correspond to different time periods, and the mode switching condition is the time period corresponding to the operation mode.

In one implementation, the mode information of the operation modes of the respective medical devices in the same medical device group may be different, so that the mode information of the respective medical devices may be manually set separately. Accordingly, the mode information of the medical device group can be set by the operator through the central station apparatus, specifically, the user-defined mode information is determined as the mode information of the operation mode of the medical device group in response to the user-defined operation of the mode information of the user; wherein the mode information comprises mode parameters and/or mode switching conditions, the mode parameters comprising at least one of: working volume, interface brightness, alarm threshold, monitoring mode and treatment mode, and the mode switching condition comprises a time period corresponding to the working mode.

That is, in response to a mode information custom operation of a user, receiving a working mode parameter and/or a mode switching condition defined by the user for each medical device in the medical device group; and determining the working mode parameters corresponding to the mode switching conditions of each medical device based on the received working mode parameters and/or the mode switching conditions.

In another implementation, each medical device in the same medical device group has uniformity, and the same working mode is determined for the medical devices in the same medical device group, so that mode information of the medical device group can be set, and each medical device in the medical device group uniformly inherits the mode information of the medical device group. Specifically, an operation mode parameter and a mode switching condition of an operation mode set in advance for each medical device group are obtained, and an operation mode parameter corresponding to the mode switching condition of each medical device in each medical device group is determined based on the operation mode parameter and the mode switching condition of the operation mode.

5.3: and the central station equipment transmits the mode information of the working mode to the medical equipment included in the medical equipment group corresponding to the working mode.

In fig. 4C, the transmission of the mode information to the medical device group specifically indicates the transmission to each medical device within the medical device group.

5.4: the medical device stores mode information of the operation mode.

Each medical device in the medical device group receives and stores the mode information.

5.5: if the medical equipment meets any mode switching condition, determining a target mode parameter corresponding to the any mode switching condition, and setting a working mode according to the target mode parameter.

The mode information stored by the medical device includes a mode switching condition and may also include a mode parameter. The mode switching conditions are used for determining the setting time of the mode, the medical equipment monitors the working state of the medical equipment according to the mode switching conditions, if the medical equipment monitors that the working state of the medical equipment meets the requirement of a certain mode switching condition, the mode parameters corresponding to the certain mode switching condition are determined in the mode parameters stored by the medical equipment, and the working mode of the medical equipment is set according to the mode parameters, so that the switching of the working mode is realized.

In implementation, one or more medical devices may be integrated into a medical device cluster, where the medical devices in the medical device cluster may control each other, that is, when any medical device satisfies a mode switching condition, not only control the medical device to switch a working mode, but also notify other medical devices to switch the working modes at the same time. Each medical device in the medical device cluster is provided with at least two working modes, the working modes have corresponding preset working time, the mode switching conditions corresponding to the working modes are time conditions, and the time conditions correspond to the preset working time. Therefore, the embodiment of the application also provides a method for setting the working mode of any medical device in the medical device cluster, which comprises the following steps:

And when the current working time of the target medical equipment meets the target mode switching condition, determining a target working mode corresponding to the target mode switching condition. The target medical device is any medical device in the medical device cluster, and the target mode switching condition is any mode switching condition corresponding to the medical device, and it can be understood that the current working time of a certain medical device may meet a certain mode switching condition, and when the condition is met, the certain medical device is called as the target medical device, and the mode switching condition is called as the target mode switching condition.

Controlling the target medical equipment to execute the target working mode according to the working mode parameters corresponding to the target mode switching conditions within the preset working time corresponding to the target mode switching conditions; and sending a notification instruction to other medical equipment in the medical equipment cluster so that the other medical equipment executes the target working mode according to the working mode parameters of the other medical equipment, which correspond to the target working mode, within the preset working time corresponding to the target mode switching condition. Wherein the operation mode parameters comprise at least one of the following: working volume, interface brightness, alarm threshold, monitoring mode and treatment mode.

In the embodiment of the present application, the mode switching condition is specifically a time condition, and the determination that the medical device satisfies the mode switching condition for the current working time may refer to the above description, which is not repeated herein. According to the embodiment of the application, when the working time of the target medical device meets the mode switching condition, the working mode of the target medical device is switched to the working mode corresponding to the mode switching condition, the working mode corresponds to the working time period, the target medical device executes the working mode in the working time period, for example, the working time period is a daytime time period, and then the target medical device executes the daytime mode in the daytime. In addition, the target medical device may also notify other medical devices in the cluster to execute the target working mode according to the working mode parameters thereof within the same preset time.

It should be noted that, in various embodiments of the present application, the operation modes may include a daytime mode and a nighttime mode; wherein, during daytime hours, the medical device is operated in daytime mode, during nighttime hours, the medical device is operated in nighttime mode; the working mode parameters corresponding to the daytime mode are different from the working mode parameters corresponding to the night mode; or, the working modes may include a plurality of working modes, each working mode corresponds to a preset care period, the working mode parameter corresponding to each working mode is associated with the care content of the corresponding care period, and each care period is located in a different time period; or the privacy mode and the normal mode of the working mode respectively correspond to preset working time, and working mode parameters corresponding to the privacy mode are different from working mode parameters corresponding to the normal mode.

In order to ensure practical application and implementation of the method, an embodiment of the present application provides a monitoring device, including:

the communication interface is used for being in communication connection with a plurality of bedside medical equipment, and the bedside medical equipment is provided with at least two working modes;

a processor configured to determine a mode switching condition and an operating mode parameter corresponding to each of the bedside medical devices in each of the operating modes, wherein the mode switching condition and/or the operating mode parameter corresponding to each of the bedside medical devices are the same or different; triggering at least one target bedside medical device corresponding to the target mode switching condition based on the determined target mode switching condition, and locally executing the working mode parameter corresponding to the target mode switching condition, so as to switch the local working mode of the target bedside medical device to the target working mode;

wherein, the working mode parameters comprise at least one of the following: working volume, interface brightness, alarm threshold, monitoring mode and treatment mode.

In one specific implementation, the processor is specifically configured to: and based on the determined target mode switching conditions, sending a mode switching instruction to target bedside medical equipment corresponding to the target mode switching conditions so as to instruct the target bedside medical equipment corresponding to the target mode switching conditions, and based on corresponding working mode parameters, switching a local working mode into a target working mode corresponding to the target mode switching conditions.

In one specific implementation, the processor is specifically configured to: and sending a mode switching instruction corresponding to mode switching to target bedside medical equipment corresponding to the target mode switching condition based on the determined target mode switching condition so as to instruct the target bedside medical equipment corresponding to the target mode switching condition, and switching a local working mode to a target working mode corresponding to the target mode switching condition based on a working mode parameter stored locally in advance.

In one specific implementation, the processor is specifically configured to: and sending a mode switching instruction corresponding to mode switching to target bedside medical equipment corresponding to the target mode switching condition based on the determined target mode switching condition, wherein the mode switching instruction is used for indicating the target bedside medical equipment corresponding to the target mode switching condition, and switching a local working mode into a target working mode corresponding to the target mode switching condition based on a working mode parameter carried in the mode switching instruction.

In a specific implementation, the processor is further configured to determine whether a conditionally achieved mode switch condition exists based on a current operating time of the monitoring device, and if so, determine the conditionally achieved mode switch condition as a target mode switch condition.

In one specific implementation, the monitoring device further comprises a memory; the memory is used for storing mode switching conditions and/or working mode parameters of at least two working modes, and the mode switching conditions and/or the working mode parameters corresponding to each working mode are the same or different; correspondingly, the processor is further configured to switch the local working mode of the monitoring device to the target working mode corresponding to the target mode switching condition based on the target working mode parameter corresponding to the determined target mode switching condition.

The embodiment of the application also provides central station equipment, which comprises:

a communication interface for communication connection with at least one medical device;

a processor configured to determine a mode switching condition corresponding to each of the medical device groups in each of the operating modes, wherein the mode switching condition corresponding to each of the medical device groups may be the same or different; based on the determined target mode switching conditions, triggering each target medical device in at least one target medical device group corresponding to the target mode switching conditions, and executing the working mode parameters corresponding to the target mode switching conditions locally, so as to switch the local working mode of the target bedside medical device to the target working mode;

Wherein, the working mode parameters comprise at least one of the following: working volume, interface brightness, alarm threshold, monitoring mode and treatment mode.

In one particular implementation, the processor is further configured to: determining the at least one medical device as at least one medical device group, wherein each medical device group corresponds to at least two modes of operation; the method of determining the at least one medical device as at least one medical device group comprises at least one of:

receiving a grouping instruction sent by a user, and grouping the at least one medical device based on the grouping instruction to obtain at least one corresponding medical device group; or, based on the device type, determining one or more medical devices of the same device type as the same medical device group; or, based on the medical objects, determining one or more medical devices associated with the same medical object or the same class of medical objects as the same medical device group; or, based on the disease area in which the medical devices are located, one or more medical devices belonging to one disease area are determined as the same medical device group.

In one particular implementation, the processor is specifically configured to: based on the determined target mode switching conditions, a mode switching instruction is sent to each medical device in a target medical device group corresponding to the target mode switching conditions to instruct each medical device in the target medical device group corresponding to the target mode switching conditions to switch a local working mode to the target working mode based on corresponding working mode parameters.

In one particular implementation, the processor is specifically configured to: based on the determined target mode switching conditions, a mode switching instruction is sent to each medical device in a target medical device group corresponding to the target mode switching conditions so as to instruct each medical device in the target medical device group corresponding to the target mode switching conditions, and a local working mode is switched to the target working mode based on working mode parameters stored locally in advance or carried in the mode switching instruction.

In a specific implementation manner, the communication interface is further used for receiving working mode parameters and/or mode switching conditions defined by a user for each medical device in the medical device group in response to a mode information custom operation of the user; the processor is further configured to determine, based on the received operating mode parameters and/or mode switching conditions, operating mode parameters corresponding to the mode switching conditions of the respective medical device.

In a specific implementation manner, the processor is further configured to obtain an operation mode parameter and a mode switching condition of an operation mode preset for each medical device group, and determine an operation mode parameter corresponding to the mode switching condition of each medical device in each medical device group based on the operation mode parameter and the mode switching condition of the operation mode.

In a specific implementation manner, each working mode corresponds to an expected working time, each mode switching condition comprises at least one time condition, the time condition corresponds to the working time, and when a determined target mode switching condition is achieved, the medical equipment is switched to the corresponding target working mode, so that the target working mode is applied to the medical equipment in the expected working time.

In a specific implementation manner, when the medical devices of the target medical device group include monitoring devices, the processor is further configured to send the target mode switching condition to the monitoring devices, where the target mode switching condition is used to instruct the monitoring devices to send mode switching instructions to each medical device of the target medical device group, and the mode switching instructions are used to instruct each medical device of the target medical device group to execute working mode parameters corresponding to the target mode switching condition locally, so that a local working mode of a target bedside medical device is switched to the target working mode; and monitoring, by the monitoring device, a current mode of operation of each medical device in the target medical device group.

It should be noted that, for the specific implementation of the steps executed by the central station device processor, reference may be made to the corresponding method embodiments described above, which are not repeated herein.

The embodiment of the application also provides medical equipment, wherein the medical equipment is any medical equipment in a medical equipment cluster, each medical equipment in the medical equipment cluster is provided with at least two working modes, each working mode has corresponding preset working time, a mode switching condition corresponding to the working mode is a time condition, and the time condition corresponds to the preset working time; the medical device includes:

a processor configured to determine a target operating mode corresponding to a target mode switching condition when a current operating time of the target medical device satisfies the target mode switching condition; the target medical equipment is any medical equipment in the medical equipment cluster, and the target mode switching condition is any mode switching condition corresponding to the medical equipment; and controlling the target medical equipment to execute the target working mode according to the working mode parameters corresponding to the target mode switching conditions within the preset working time corresponding to the target mode switching conditions;

The communication interface is used for sending a notification instruction to other medical equipment in the medical equipment cluster so that the other medical equipment executes the target working mode according to the working mode parameters of the other medical equipment, which correspond to the target working mode, within the preset working time corresponding to the target mode switching condition;

wherein, the working mode parameters comprise at least one of the following: working volume, interface brightness, alarm threshold, monitoring mode and treatment mode.

In a specific implementation manner, the working mode is one of the following:

the working modes comprise a daytime mode and a nighttime mode; wherein during a daytime period, the medical device operates in the daytime mode, and during a nighttime period, the medical device operates in the nighttime mode; the working mode parameters corresponding to the daytime mode are different from the working mode parameters corresponding to the night mode; the working modes comprise a plurality of working modes, each working mode corresponds to a preset nursing period, working mode parameters corresponding to each working mode are associated with nursing contents of corresponding nursing periods, and each nursing period is located in different time periods; and the privacy mode and the normal mode of the working mode respectively correspond to preset working time, and working mode parameters corresponding to the privacy mode are different from working mode parameters corresponding to the normal mode.

The embodiment of the application provides a medical device, which is a central station device or a monitoring device and is in communication connection with at least one other medical device; the medical device includes:

a processor configured to obtain mode information corresponding to at least one working mode of the other medical device, wherein the mode information includes a working mode parameter and/or a mode switching condition;

the communication interface is used for sending the mode information of the working modes to the other medical equipment so that the other medical equipment can set the local working mode based on the mode information corresponding to the at least one working mode;

wherein, the working mode parameters comprise at least one of the following: working volume, interface brightness, alarm threshold, monitoring mode and treatment mode.

In one particular implementation, the processor is specifically configured to: responding to the mode information self-defining operation, and determining the mode information defined by a user as the mode information of the working mode of the second medical equipment; or, receiving mode information of at least one working mode sent by other equipment in communication connection with the first medical equipment, and determining the mode information as the mode information of the second medical equipment.

In a specific implementation manner, the mode switching condition includes a time period corresponding to the working mode.

The embodiment of the application also provides medical equipment which is in communication connection with at least one other medical equipment, wherein the other medical equipment stores at least one working mode, and the working modes corresponding to different other medical equipment are associated with the same working scene; the medical device includes:

the human-computer interaction module is used for receiving a mode switching instruction, wherein the mode switching instruction is used for indicating one or more target working scenes to be set by other target medical equipment;

and the processor is configured to control the communication interface to send the mode switching instruction to the target other medical equipment so as to enable the target other medical equipment to switch the current working mode to a target working mode corresponding to the target working scene.

In a specific implementation manner, the processor is further configured to switch the current working mode of the first medical device to the working mode corresponding to the target working scene in response to the mode switching instruction.

One specific example of a monitoring device is shown in fig. 5. Fig. 5 provides a system frame diagram of a parameter processing module in the multi-parameter monitor.

The multi-parameter monitor has a separate housing with a sensor interface area on a housing panel with a plurality of sensor interfaces integrated therein for connection to external individual physiological parameter sensor attachments 511, and a small IXD display area, display 518, input interface circuitry 520, alarm circuitry 519 (e.g., LED alarm area), etc. on the housing panel. The parameter processing module is used for external communication and power interface for communicating with the host and taking electricity from the host. The parameter processing module also supports an externally inserted parameter module, which can be used as an external accessory of the monitor by being inserted into the parameter module to form a plug-in monitor host as a part of the monitor or by being connected with the host through a cable. In addition, the multi-parameter monitor includes a memory 517 for storing a computer program and various data generated during the relevant monitoring process.

The internal circuitry of the parameter processing module is disposed within the housing, as shown in fig. 5, and includes at least two signal acquisition circuits 512, a front-end signal processing circuit 513, and a main processor 515 corresponding to the physiological parameters.

The main processor 515 may implement the various process-related steps of the various apneic event monitoring methods described above.

The signal acquisition circuit 512 may be selected from an electrocardiograph circuit, a respiratory circuit, a body temperature circuit, an oximetry circuit, a noninvasive blood pressure circuit, an invasive blood pressure circuit, etc., and these signal acquisition circuits 512 are respectively electrically connected to corresponding sensor interfaces for electrically connecting to the sensor accessories 511 corresponding to different physiological sign parameters, the output ends of which are coupled to a front-end signal processor, the communication ports of which are coupled to a main processor, and the main processor is electrically connected to an external communication and power interface.

Various physiological physical sign parameter measuring circuits can adopt a general circuit in the prior art, and a front-end signal processor is used for completing sampling and analog-to-digital conversion of an output signal of a signal acquisition circuit and outputting a control signal to control the measuring process of a physiological signal, wherein the parameters comprise but are not limited to: electrocardio, respiration, body temperature, blood oxygen, noninvasive blood pressure and invasive blood pressure parameters.

The front-end signal processor can be realized by a singlechip or other semiconductor devices, and can also be realized by an ASIC or an FPGA. The front-end signal processor may be powered by an isolated power supply, and the sampled data may be simply processed and packaged and sent to the host processor via an isolated communication interface, e.g., the front-end signal processor circuit may be coupled to the host processor 515 via the isolated power supply and communication interface 514.

The reason that front-end signal processor was supplied with power by the isolation power is the DC/DC power that keeps apart through the transformer, has played the effect of isolating patient and power supply unit, and main objective is: 1. isolating the patient, and floating the application part through an isolating transformer to ensure that the leakage current of the patient is small enough; 2. the voltage or energy during defibrillation or electrotome application is prevented from affecting the board card and devices (ensured by creepage distance and electric gap) of intermediate circuits such as a main control board.

The main processor completes the calculation of physiological physical sign parameters, and sends the calculation result and waveform of the parameters to a host (such as a host with a display, a PC, a central station, etc.) through an external communication and power interface 516, which may be one or a combination of local area network interfaces formed by Ethernet (Token Ring), token Bus (Token Bus) and backbone network Fiber Distributed Data Interface (FDDI) serving as the three networks, or one or a combination of wireless interfaces such as infrared, bluetooth, wifi, WMTS communication, etc., or one or a combination of wired data connection interfaces such as RS232, USB, etc.

The external communication and power interface 516 may also be one or a combination of both a wireless data transfer interface and a wired data transfer interface. The host computer can be any one of a host computer of a monitor, an electrocardiograph, an ultrasonic diagnostic apparatus, a computer and the like, and can form a monitoring device by installing matched software. The host can also be communication equipment, such as a mobile phone, and the parameter processing module sends data to the mobile phone supporting Bluetooth communication through the Bluetooth interface so as to realize remote transmission of the data.

It should be noted that, in the present specification, each embodiment is described in a progressive manner, and each embodiment is mainly described as different from other embodiments, and identical and similar parts between the embodiments are all enough to be referred to each other.

It is further noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (31)

1. A medical device working mode setting method, which is characterized in that the method is applied to a monitoring device, the monitoring device is in communication connection with a plurality of bedside medical devices, and the bedside medical devices are provided with at least two working modes; the method comprises the following steps:

   determining a mode switching condition and a working mode parameter corresponding to each bedside medical device in each working mode, wherein the mode switching condition and/or the working mode parameter corresponding to each bedside medical device are the same or different;

   triggering at least one target bedside medical device corresponding to the target mode switching condition based on the determined target mode switching condition, and locally executing the working mode parameter corresponding to the target mode switching condition, so as to switch the local working mode of the target bedside medical device to the target working mode;

   Wherein, the working mode parameters comprise at least one of the following: working volume, interface brightness, alarm threshold, monitoring mode and treatment mode.
2. The method of claim 1, wherein triggering at least one target bedside medical device corresponding to the target mode switching condition based on the determined target mode switching condition to locally execute an operating mode parameter corresponding to the target mode switching condition to switch a local operating mode of the target bedside medical device to the target operating mode comprises:

   and based on the determined target mode switching conditions, sending a mode switching instruction to target bedside medical equipment corresponding to the target mode switching conditions so as to instruct the target bedside medical equipment corresponding to the target mode switching conditions, and based on corresponding working mode parameters, switching a local working mode into a target working mode corresponding to the target mode switching conditions.
3. The method of claim 2, wherein triggering at least one target bedside medical device corresponding to the target mode switching condition based on the determined target mode switching condition to locally execute an operating mode parameter corresponding to the target mode switching condition to switch a local operating mode of the target bedside medical device to the target operating mode comprises:

   And sending a mode switching instruction corresponding to mode switching to target bedside medical equipment corresponding to the target mode switching condition based on the determined target mode switching condition so as to instruct the target bedside medical equipment corresponding to the target mode switching condition, and switching a local working mode to a target working mode corresponding to the target mode switching condition based on a working mode parameter stored locally in advance.
4. The method of claim 2, wherein triggering at least one target bedside medical device corresponding to the target mode switching condition based on the determined target mode switching condition to locally execute an operating mode parameter corresponding to the target mode switching condition to switch a local operating mode of the target bedside medical device to the target operating mode comprises:

   and sending a mode switching instruction corresponding to mode switching to target bedside medical equipment corresponding to the target mode switching condition based on the determined target mode switching condition, wherein the mode switching instruction is used for indicating the target bedside medical equipment corresponding to the target mode switching condition, and switching a local working mode into a target working mode corresponding to the target mode switching condition based on a working mode parameter carried in the mode switching instruction.
5. The method of claim 1, wherein the method further comprises:

   and determining whether a mode switching condition achieved by the condition exists or not based on the current working time of the monitoring equipment, and if so, determining the mode switching condition achieved by the condition as a target mode switching condition.
6. The method of claim 1, wherein the method further comprises:

   the monitoring equipment is also provided with at least two working modes, and the mode switching conditions and/or the working mode parameters corresponding to each working mode are the same or different;

   and switching the local working mode of the monitoring equipment to the target working mode corresponding to the target mode switching condition based on the target working mode parameter corresponding to the determined target mode switching condition.
7. A medical device operation mode setting method, wherein the method is applied to a central station device, the central station device being communicatively connected to at least one medical device, the method comprising:

   determining the mode switching conditions corresponding to each medical equipment group in each working mode, wherein the mode switching conditions corresponding to each medical equipment group can be the same or different;

   Based on the determined target mode switching conditions, triggering each target medical device in at least one target medical device group corresponding to the target mode switching conditions, and locally executing the working mode parameters corresponding to the target mode switching conditions, so as to switch the local working mode of the target bedside medical device to the target working mode;

   wherein, the working mode parameters comprise at least one of the following: working volume, interface brightness, alarm threshold, monitoring mode and treatment mode.
8. The method of claim 7, wherein the method further comprises: determining the at least one medical device as at least one medical device group, wherein each medical device group corresponds to at least two modes of operation; the method of determining the at least one medical device as at least one medical device group comprises at least one of:

   receiving a grouping instruction sent by a user, and grouping the at least one medical device based on the grouping instruction to obtain at least one corresponding medical device group; or alternatively, the first and second heat exchangers may be,

   determining, based on the device type, one or more medical devices of the same device type as the same medical device group; or alternatively, the first and second heat exchangers may be,

   Determining, based on the medical objects, one or more medical devices associated with the same medical object or the same class of medical objects as the same medical device group; or (b)

   One or more medical devices belonging to a disease area are determined to be the same medical device group based on the disease area in which the medical device is located.
9. The method of claim 7, wherein triggering each target medical device in the at least one target medical device group corresponding to the target mode switching condition based on the determined target mode switching condition to locally execute an operating mode parameter corresponding to the target mode switching condition to switch a local operating mode of the target bedside medical device to the target operating mode comprises:

   based on the determined target mode switching conditions, a mode switching instruction is sent to each medical device in a target medical device group corresponding to the target mode switching conditions to instruct each medical device in the target medical device group corresponding to the target mode switching conditions to switch a local working mode to the target working mode based on corresponding working mode parameters.
10. The method of claim 9, wherein triggering each target medical device within the at least one target medical device group corresponding to the target mode switching condition based on the determined target mode switching condition to locally execute an operating mode parameter corresponding to the target mode switching condition to switch a local operating mode of the target bedside medical device to the target operating mode comprises:

    Based on the determined target mode switching conditions, a mode switching instruction is sent to each medical device in a target medical device group corresponding to the target mode switching conditions so as to instruct each medical device in the target medical device group corresponding to the target mode switching conditions, and a local working mode is switched to the target working mode based on working mode parameters stored locally in advance or carried in the mode switching instruction.
11. The method of claim 7, wherein the method further comprises:

    receiving working mode parameters and/or mode switching conditions defined by a user for each medical device in a medical device group in response to mode information self-defining operation of the user;

    and determining the working mode parameters corresponding to the mode switching conditions of each medical device based on the received working mode parameters and/or the mode switching conditions.
12. The method of claim 7, wherein the method further comprises:

    the method comprises the steps of obtaining working mode parameters and mode switching conditions of a working mode preset for each medical equipment group, and determining the working mode parameters corresponding to the mode switching conditions of the medical equipment in each medical equipment group based on the working mode parameters and the mode switching conditions of the working mode.
13. A method according to any one of claims 7 to 12, wherein each mode of operation corresponds to an expected time of operation, each mode switching condition comprising at least one time condition corresponding to the time of operation, and when a determined target mode switching condition is reached, the medical device switches to the corresponding target mode of operation such that the target mode of operation is applied to the medical device for the expected time of operation.
14. The method of claim 7, wherein when the medical device of the target medical device group comprises a monitoring device, the method further comprises:

    the target mode switching condition is sent to the monitoring equipment, the target mode switching condition is used for indicating the monitoring equipment to send a mode switching instruction to each medical equipment in the target medical equipment group, the mode switching instruction is used for indicating each medical equipment in the target medical equipment group, and working mode parameters corresponding to the target mode switching condition are locally executed, so that the local working mode of the target bedside medical equipment is switched to the target working mode;

    And monitoring, by the monitoring device, a current mode of operation of each medical device in the target medical device group.
15. The method is applied to any medical equipment in a medical equipment cluster, each medical equipment in the medical equipment cluster is provided with at least two working modes, each working mode has corresponding preset working time, a mode switching condition corresponding to the working mode is a time condition, and the time condition corresponds to the preset working time; the method comprises the following steps:

    when the current working time of the target medical equipment meets a target mode switching condition, determining a target working mode corresponding to the target mode switching condition; the target medical equipment is any medical equipment in the medical equipment cluster, and the target mode switching condition is any mode switching condition corresponding to the medical equipment;

    controlling the target medical equipment to execute the target working mode according to the working mode parameters corresponding to the target mode switching conditions within the preset working time corresponding to the target mode switching conditions;

    Sending a notification instruction to other medical equipment in the medical equipment cluster, so that the other medical equipment executes the target working mode according to working mode parameters of the other medical equipment corresponding to the target working mode within a preset working time corresponding to the target mode switching condition;

    wherein, the working mode parameters comprise at least one of the following: working volume, interface brightness, alarm threshold, monitoring mode and treatment mode.
16. The method of claim 15, wherein the operating mode is one of:

    the working modes comprise a daytime mode and a nighttime mode; wherein during a daytime period, the medical device operates in the daytime mode, and during a nighttime period, the medical device operates in the nighttime mode; the working mode parameters corresponding to the daytime mode are different from the working mode parameters corresponding to the night mode; and, a step of, in the first embodiment,

    the working modes comprise a plurality of working modes, each working mode corresponds to a preset nursing period, working mode parameters corresponding to each working mode are associated with nursing contents of corresponding nursing periods, and each nursing period is located in different time periods; and, a step of, in the first embodiment,

    The privacy mode and the normal mode of the working mode respectively correspond to preset working time, and working mode parameters corresponding to the privacy mode are different from working mode parameters corresponding to the normal mode.
17. The method for setting the working mode of the medical equipment is characterized by being applied to first medical equipment, wherein the first medical equipment is central station equipment or monitoring equipment, and the first medical equipment is in communication connection with at least one second medical equipment; the method comprises the following steps:

    obtaining mode information corresponding to at least one working mode of the second medical equipment, wherein the mode information comprises working mode parameters and/or mode switching conditions;

    the mode information of the working mode is sent to the second medical equipment, so that the second medical equipment can set a local working mode based on the mode information corresponding to the at least one working mode;

    wherein, the working mode parameters comprise at least one of the following: working volume, interface brightness, alarm threshold, monitoring mode and treatment mode.
18. The method of claim 17, wherein obtaining mode information for at least one operating mode of the second medical device comprises:

    Responding to the mode information self-defining operation, and determining the mode information defined by a user as the mode information of the working mode of the second medical equipment; or alternatively, the first and second heat exchangers may be,

    and receiving mode information of at least one working mode sent by other equipment in communication connection with the first medical equipment, and determining the mode information as the mode information of the second medical equipment.
19. The method of claim 17, wherein the mode switching condition comprises a period of time corresponding to an operating mode.
20. The setting method of the working modes of the medical equipment is characterized by being applied to first medical equipment, wherein the first medical equipment is in communication connection with at least one second medical equipment, the second medical equipment stores at least one working mode, and the working modes corresponding to different second medical equipment are related to the same working scene; the method comprises the following steps:

    receiving a mode switching instruction, wherein the mode switching instruction is used for indicating one or more target working scenes to be set by the target second medical equipment;

    and sending the mode switching instruction to the target second medical equipment so that the target second medical equipment switches the current working mode into a target working mode corresponding to the target working scene.
21. The method of claim 20, wherein the method further comprises:

    and responding to the mode switching instruction, and switching the current working mode of the first medical equipment into the working mode corresponding to the target working scene.
22. A monitoring device, comprising:

    the communication interface is used for being in communication connection with a plurality of bedside medical equipment, and the bedside medical equipment is provided with at least two working modes;

    a processor configured to determine a mode switching condition and an operating mode parameter corresponding to each of the bedside medical devices in each of the operating modes, wherein the mode switching condition and/or the operating mode parameter corresponding to each of the bedside medical devices are the same or different; triggering at least one target bedside medical device corresponding to the target mode switching condition based on the determined target mode switching condition, and locally executing the working mode parameter corresponding to the target mode switching condition, so as to switch the local working mode of the target bedside medical device to the target working mode;

    wherein, the working mode parameters comprise at least one of the following: working volume, interface brightness, alarm threshold, monitoring mode and treatment mode.
23. The monitoring device of claim 22, wherein the processor is configured to:

    and based on the determined target mode switching conditions, sending a mode switching instruction to target bedside medical equipment corresponding to the target mode switching conditions so as to instruct the target bedside medical equipment corresponding to the target mode switching conditions, and based on corresponding working mode parameters, switching a local working mode into a target working mode corresponding to the target mode switching conditions.
24. The monitoring device of claim 23, wherein the processor is configured to:

    and sending a mode switching instruction corresponding to mode switching to target bedside medical equipment corresponding to the target mode switching condition based on the determined target mode switching condition so as to instruct the target bedside medical equipment corresponding to the target mode switching condition, and switching a local working mode to a target working mode corresponding to the target mode switching condition based on a working mode parameter stored locally in advance.
25. The monitoring device of claim 23, wherein the processor is configured to:

    and sending a mode switching instruction corresponding to mode switching to target bedside medical equipment corresponding to the target mode switching condition based on the determined target mode switching condition, wherein the mode switching instruction is used for indicating the target bedside medical equipment corresponding to the target mode switching condition, and switching a local working mode into a target working mode corresponding to the target mode switching condition based on a working mode parameter carried in the mode switching instruction.
26. The monitoring device of claim 22, wherein,

    the processor is further configured to determine whether a conditionally achieved mode switch condition exists based on a current operating time of the monitoring device, and if so, determine the conditionally achieved mode switch condition as a target mode switch condition.
27. The monitoring device of claim 22, further comprising a memory;

    the memory is used for storing mode switching conditions and/or working mode parameters of at least two working modes, and the mode switching conditions and/or the working mode parameters corresponding to each working mode are the same or different;

    the processor is further configured to switch the local working mode of the monitoring device to a target working mode corresponding to the target mode switching condition based on the determined target working mode parameter corresponding to the target mode switching condition.
28. A central station apparatus, comprising:

    a communication interface for communication connection with at least one medical device;

    a processor configured to determine a mode switching condition corresponding to each of the medical device groups in each of the operating modes, wherein the mode switching condition corresponding to each of the medical device groups may be the same or different; based on the determined target mode switching conditions, triggering each target medical device in at least one target medical device group corresponding to the target mode switching conditions, and executing the working mode parameters corresponding to the target mode switching conditions locally, so as to switch the local working mode of the target bedside medical device to the target working mode;

    Wherein, the working mode parameters comprise at least one of the following: working volume, interface brightness, alarm threshold, monitoring mode and treatment mode.
29. The medical equipment is characterized in that the medical equipment is any one of medical equipment in a medical equipment cluster, each medical equipment in the medical equipment cluster is provided with at least two working modes, each working mode has corresponding preset working time, and a mode switching condition corresponding to the working mode is a time condition, and the time condition corresponds to the preset working time; the medical device includes:

    a processor configured to determine a target operating mode corresponding to a target mode switching condition when a current operating time of the target medical device satisfies the target mode switching condition; the target medical equipment is any medical equipment in the medical equipment cluster, and the target mode switching condition is any mode switching condition corresponding to the medical equipment; and controlling the target medical equipment to execute the target working mode according to the working mode parameters corresponding to the target mode switching conditions within the preset working time corresponding to the target mode switching conditions;

    The communication interface is used for sending a notification instruction to other medical equipment in the medical equipment cluster so that the other medical equipment executes the target working mode according to the working mode parameters of the other medical equipment, which correspond to the target working mode, within the preset working time corresponding to the target mode switching condition;

    wherein, the working mode parameters comprise at least one of the following: working volume, interface brightness, alarm threshold, monitoring mode and treatment mode.
30. A medical device, wherein the medical device is a central station device or a monitoring device, the medical device being communicatively connected to at least one other medical device; the medical device includes:

    a processor configured to obtain mode information corresponding to at least one working mode of the other medical device, wherein the mode information includes a working mode parameter and/or a mode switching condition;

    the communication interface is used for sending the mode information of the working modes to the other medical equipment so that the other medical equipment can set the local working mode based on the mode information corresponding to the at least one working mode;

    Wherein, the working mode parameters comprise at least one of the following: working volume, interface brightness, alarm threshold, monitoring mode and treatment mode.
31. A medical device, wherein the medical device is in communication connection with at least one other medical device, the other medical device stores at least one working mode, and the working modes corresponding to different other medical devices are associated with the same working scene; the medical device includes:

    the human-computer interaction module is used for receiving a mode switching instruction, wherein the mode switching instruction is used for indicating one or more target working scenes to be set by other target medical equipment;

    and the processor is configured to control the communication interface to send the mode switching instruction to the target other medical equipment so as to enable the target other medical equipment to switch the current working mode to a target working mode corresponding to the target working scene.